在赤道低轨道卫星上的太阳能电池板

ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika Pub Date : 2019-09-30 DOI:10.26760/elkomika.v7i3.480

Desti Ika Suryanti, S. Ramayanti, M. Mukhayadi

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引用次数: 3

摘要

卫星的抽象设计已经发展到微型化，以减少发射成本。小型卫星为太空任务提供低成本平台。小型卫星的一个主要问题是电力供应有限。由于维持卫星子系统工作所需的电力供应，因此需要对卫星设计过程进行分析和估计，以便在卫星轨道上保持标准的协调和体积。这项研究的目的是确定不同位置设计替代方案太阳能电池板的照明条件，以便获得有效的设计。最大照明是一个三重接头太阳能电池板，其载重量为60%。根据这项研究的结果，安装3个太阳能电池板和2个简单的太阳能电池板的组合产生的照明率是5个太阳能电池板的两倍。关键字:三重接头太阳能电池板，照明，体顶，简单的部署，抽象设计的力量使减少发射的微型化。小型卫星提供低成本的太空任务平台。小卫星的一个主要问题是有限的能力。因为电力的可用性需要卫星子系统的工作，卫星设计程序需要分析和估计电力这项研究旨在确定来自不同种类的替代设计平台的太阳能照明条件。三联太阳能电池板上的三连接太阳能电池板高度接近，60%是相准的。根据这项研究的结果，安装3个太阳能电池板和2个简单的太阳能电池板制作在5个太阳能电池板上。三连接太阳能电池板，照明，车身增加，简单的部署，功率

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Iluminasi Panel Surya pada Satelit Orbit Rendah Ekuatorial

ABSTRAKDesain satelit telah berkembang ke arah miniaturisasi untuk mengurangi biaya peluncuran. Satelit kecil menyediakan platform berbiaya rendah untuk misi luar angkasa. Salah satu permasalahan utama satelit kecil adalah terbatasnya ketersediaan daya. Karena ketersediaan daya diperlukan agar subsistem satelit dapat bekerja, maka pada proses desain satelit perlu dilakukan analisis dan estimasi ketersediaan daya selama satelit mengorbit dengan tetap mempertahankan kekompakan dan volume yang diberlakukan oleh standar. Penelitian ini bertujuan untuk mengetahui kondisi iluminasi matahari pada panel surya dari berbagai alternatif desain penempatan sehingga diperoleh sebuah desain yang efisien. Iluminasi maksimum sebuah panel surya triple junction yang terpasang secara body mounted pada satelit kurang lebih sebesar 60%. Berdasarkan hasil penelitian ini, kombinasi pemasangan 3 body mounted panel surya dan 2 simple deploy panel surya menghasilkan persentase iluminasi dua kali lipat dibandingkan 5 body mounted panel surya.Kata kunci: panel surya triple junction, iluminasi, body mounted, simple deploy, daya ABSTRACTSatellite design has envolved towards miniaturization to reduce launch costs. Small satellites provide a low-cost platform for space missions. One of the main problems with small satellites is the limited availability of power. Because the availability of power is needed so that the satellite subsystem can work, the satellite design process needs to analyze and estimated power availability as long as the satellite orbits while maintaining the compactness and volume imposed by the standard. This study aims to determine the conditions of solar illumination on solar panels from various alternative design placements in order to obtain an efficient design. Maximum illumination of triple junction solar panel mounted on a small satellite is approximately 60%. Based on the results of this study, the combination of installing 3 body mounted solar panels and 2 simple deploy solar panels produced twice the illumination percentage compared to 5 body mounted solar panels.Keywords: solar panel triple junction, illumination, body mounted, simple deploy, power

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ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika

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